Mobile Loading Dock with Wheel Assembly

ABSTRACT

A mobile loading dock including a planar ramp member having an underside with a wheel assembly. The wheel assembly includes a tension spring, hydraulic member, a leg hingedly attached to the ramp underside and a wheel attached to the leg. The tension spring exerts a pulling force on the leg and wheel and the hydraulic member exerts a pushing force. The combined forces are directionally disposed to erect the wheel assembly when the lower end of the mobile loading dock is raised from a resting position in contact with the ground surface to a mobile position.

RELATED APPLICATION

The present application is a continuation of pending U.S. patent application Ser. No. 13/903,207, filed May 28, 2013, the contents of which are incorporated by reference in their entireties.

FIELD

This device relates to mobile loading docks and more particularly to a loading dock having a wheel assembly for positioning of the dock.

BACKGROUND

A variety of loading docks have been devised to adjust to the height of different trailers to properly match the deck of the trailer to the height of the dock. By aligning the height of the trailer and the dock the loading and unloading of cargo is facilitated.

There are many such devices in the prior art. One such device is seen in U.S. Pat. No. 4,624,446 to Gould which discloses a reinforced platform pivotally mounted to the ground at one end and includes a support assembly having hydraulic cylinders. In operation the rear wheels of a truck trailer are backed onto the platform and then the non-mounted end of the platform is lifted by the hydraulic cylinders until the deck of the trailer is equal to the height of the dock. A similar device is disclosed in U.S. Pat. No. 4,765,792 to Cherry et al. which also discloses a pivotally-mounted and hydraulically-raised platform.

Loading docks of the prior art typically have certain disadvantages. The majority of moveable loading docks require at least some level of manual manipulation by the user to move the dock into a desired position for loading and unloading of material. Typically, this requires a fork truck operator or other individual to manually connect the ramp portion of the loading dock to a fork truck.

This can be done through the use of a loosely connected chain. The individual then must get back in the fork truck, move the ramp to the desired location and then get back out of the fork truck to disconnect the ramp. This is a very time consuming process which may take more than one individual to execute.

It would be desirable to have a mobile loading dock which can be connected and disconnected to a fork truck and moved without the need for the user to leave the fork truck. It would also be desirable to provide a device for connecting a loading dock and the forks on a fork truck which is secure and safe and which also allows for easy maneuvering of the loading dock.

This device overcomes certain problems and shortcomings in the prior art, including those mentioned above and others, and provides advantages for a mobile loading dock not previously provided.

SUMMARY

This device is an improvement in a mobile loading dock apparatus of the type including a lower end terminating in a lower edge and an upper end including an upper edge. The lower edge has a slot substantially parallel to the length of the ramp member for engagement with a slot-engaging member. The slot-engaging member is able to be connected to a fork truck for positioning of the ramp member.

In highly preferred embodiments, a fork-engaging sleeve is used to position the ramp member. Preferably, the fork-engaging sleeve has an underside from which the slot-engaging member protrudes downward. The slot-engaging member includes a downward-protruding rod portion and a flange-end portion connected thereto.

Preferably, the slot includes a first portion and a second portion. The first portion guides the slot-engaging member toward the second portion wherein the slot-engaging member is securable. It is also preferred that the second portion include an arc-shaped member affixed to an underside of the ramp member for receiving the flange-end portion. It is highly preferable that the flange-end portion include a tapered-upward-facing surface for contact and securement with the arc-shaped member when connecting the fork truck to the loading dock.

In preferred embodiments, the arc-shaped member includes a concave-interior surface for securement of the slot-engaging member and for interaction with the tapered-upward-facing surface thereby enabling movement of the ramp member.

In highly preferred embodiments, the fork truck includes at least one fork and the fork-engaging sleeve includes at least one sheathe for receiving the fork. In other highly preferred embodiments, the fork-engaging sleeve includes two sheathes, one for each corresponding fork. Another aspect of the device includes a chain for supplementary securement of the fork-engaging sleeve to the fork truck.

It is highly preferable that the ramp member has opposed sidewalls and the lower edge has edge-end corners. Preferably, the sidewalls extend from the upper edge of the ramp member to termination points between the upper edge and the edge-end corners; the distance between the termination points and the edge-end corners is between 12 inches and 60 inches.

It is preferable that the ramp member include (a) a first upper-end planar portion, the plane of which is parallel to a ground surface on which the ramp member rests; and (b) a second planar portion, the plane of which is downwardly-angled from the upper end to the lower edge. Some embodiments also include a hand-rail secured to the first upper-end planar portion.

It is highly preferred that the mobile loading dock includes a ramp underside with a wheel assembly. In preferred embodiments, the wheel assembly includes a tension spring, a hydraulic member, a leg hingedly attached to the ramp underside and a wheel attached to a leg at an axle and disposed to contact the ground surface beneath the mobile loading dock.

In operation, the tension spring exerts a pulling force on the leg and wheel and the hydraulic member simultaneously exerts a pushing force on the leg and wheel. The combined pulling force and pushing force are directionally disposed to erect the wheel assembly when the lower end of the mobile loading dock is raised from a resting position in contact with the ground surface to a mobile position not in contact with the ground surface.

Preferably, the wheel assembly includes a hydraulic check valve for automatic locking of the wheel assembly into a mobile position when the wheel assembly is erected. The wheel assembly also preferably includes a manually-actuated hydraulic release valve. Actuation of the release valve while in the mobile position causes the pushing force to be reduced and the wheel assembly to return to the resting position.

It is preferred that the wheel assembly also include an elongate weight-bearing support member having a first end attached to the ramp underside and a second end attached to a tension spring and having a foot. The foot contacts the ground surface when the wheel assembly is in the resting position. When in the resting position, the support member bears a portion of the weight of the ramp member.

It is highly preferred that the ramp member include two wheel assemblies, one on each side of the ramp. The wheel assemblies are equally distant from a point on the lower edge and are located on each side of ramp member to provide stability.

BRIEF DESCRIPTION OF THE DRAWINGS

The drawings illustrate a preferred embodiment including the above-noted characteristics and features of the device. The device will be readily understood from the descriptions and drawings. In the drawings:

FIG. 1 is a perspective view of the mobile loading dock and fork truck with fork-engaging sleeve;

FIG. 2 is a perspective view of the fork-engaging sleeve of FIG. 1;

FIG. 3 is a perspective view of the fork-engaging sleeve engaged with the loading dock of FIG. 1;

FIG. 4 is a cross sectional view of the mobile loading dock and fork-engaging sleeve of FIG. 2 taken along line 4-4;

FIG. 5 is a cross-sectional view of the fork-engaging sleeve partially engaged with the loading dock of FIG. 1;

FIG. 6 is a cross-sectional view of the fork-engaging sleeve partially engaged with the loading dock of FIG. 1;

FIG. 7 is a cross sectional view of the mobile loading dock and fork-engaging sleeve of FIG. 3 taken along line 7-7;

FIG. 8 is a cross-sectional view of the fork-engaging sleeve fully engaged with the loading dock of FIG. 1;

FIG. 9 is a perspective view of the slot-engaging member;

FIG. 10 is a perspective view of the arc-shaped member;

FIG. 11 is a perspective view of the mobile loading dock and fork truck of FIG. 1;

FIG. 12 is a perspective view of the mobile loading dock of FIG. 1 with the ramp member in the raised position;

FIG. 13 is a perspective view of the mobile loading dock of FIG. 1 with the ramp member in the lowered position;

FIG. 14 is a sectional view of the wheel assembly of FIG. 11 taken along line 11-11;

FIG. 15 is a sectional view of the wheel assembly of FIG. 12 taken along line 12-12; and

FIG. 16 is a sectional view of the wheel assembly of FIG. 13 taken along line 13-13.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

FIGS. 1-16 illustrate a mobile loading dock 10 with planar ramp member 12. Mobile loading dock 10 includes a lower end 14 terminating in a lower edge 16 and an upper end 18 having an upper edge 20. Lower edge 16 has a slot 22 substantially parallel to the length of the ramp member for engagement with a slot-engaging member 24. Slot-engaging member 24 is able to be connected to a fork truck 26 for positioning of ramp member 12.

FIG. 1 illustrates fork truck 26 connected to ramp member 12 via a fork-engaging sleeve 28. Fork-engaging sleeve 28 is used to position ramp member 12. FIGS. 4-8 illustrate that Fork-engaging sleeve 28 has an underside 30 from which slot-engaging member 24 protrudes downward. Slot-engaging member 24 includes two parts, a downward-protruding rod portion 32 and a flange-end portion 34 as seen in FIGS. 4-9.

As illustrated in FIG. 2, slot 22 includes a first portion 36 and a second portion 38. First portion 36 guides slot-engaging member 24 toward the second portion 38. Slot-engaging member 24 is secured in second portion 38. Second portion 38 includes an arc-shaped member 40 affixed to the underside 30 of ramp member 12 for receiving the flange-end portion 34 of slot-engaging member. Flange-end portion 34 include a tapered-upward-facing surface 42. Arc-shaped member 40 includes a concave-interior surface 44 (as seen best in FIG. 10) for securement of slot-engaging member 24 and for interaction with tapered-upward-facing surface 42 thereby enabling movement of ramp member 12.

It is the interaction between flange-end portion 34 (specifically the tapered-upward-facing surface 42) and arc-shaped member 40 that secures ramp member 12 with fork truck 26 and allows fork truck 26 to move and position the ramp member 12.

Fork truck 26 includes at least one fork 46 and preferably two forks 46 as seen in FIGS. 2-3. As also illustrated in FIGS. 2-3, fork-engaging sleeve 28 includes at least one sheathe 48 for receiving one fork 46 or two connected sheathes 48 if there are two forks 46. Sheathe 48 slides on to the fork(s) 46 and is held in place through frictional engagement. A chain 50 can be used for supplementary securement of fork-engaging sleeve 28 to fork truck 26 as seen in FIGS. 2-3.

FIGS. 1 and 11-13 illustrate that ramp member 12 has opposed sidewalls 52 that run the majority of the length of ramp member 12. Lower edge 16 of ramp member 12 has edge-end corners 54. (See FIG. 1.) The edge-end corners 54 are located at the end of ramp member 12. Sidewalls 52 on ramp member 12 extend from upper edge 18 to termination points 56. Termination points 56, as seen in FIG. 1, are located between 20 upper edge of ramp member 12 and edge-end corners 54. The distance between termination points 56 and the edge-end corners 54 is between 12 inches and 60 inches.

Ramp member 12 has several different planes as seen in FIGS. 1 and 11-13. These include a first upper-end planar portion 58, the plane 64 of which is parallel to a ground surface on which ramp member 12 rests; and a second planar portion 60, the plane 66 of which is downwardly-angled from upper end 18 to lower edge 16. Some embodiments of ramp member 12 also include a hand-rail 62 secured to first upper-end planar portion 58 as seen in FIG. 1. First upper-end planar portion 58 is the section of ramp member 12 which, when in use, abuts either a loading dock or vehicle for purposes of loading or unloading.

Typically loading docks include a raised dock for the loading and unloading of materials which often come in large quantities and are carried by wooden pallets. Most docks have doorways with overhead doors that provide access to a garage or similar type of building.

FIG. 1 also illustrates that ramp member 12 includes stationary support members 68 which do not articulate but which assist in supporting the weight of the fork truck 26 so that personnel and material handling equipment (such as a fork truck 26), can conveniently move between the loading dock and the truck bed. A manual hand crank is traditionally used to raise or lower the height of the stationary support members 68.

As also seen in FIG. 1, mobile loading dock 10 includes a ramp underside 70 with a wheel assembly 72. FIGS. 11-16 illustrate that wheel assembly 72 has a tension spring 74, a hydraulic member 76, a leg 78 hingedly attached to the ramp underside 70 and a wheel 80 attached to leg 78 at an axle 82 and disposed to contact a ground surface 84 beneath mobile loading dock 10.

In operation, tension spring 74 exerts a pulling force on leg 78 and wheel 80 and the hydraulic member 76 exerts a pushing force on the leg 78 and wheel 80 as seen by the arrow in FIGS. 12 and 15. The combined pulling force and pushing force being directionally disposed to erect wheel assembly 72 when the lower end 14 of mobile loading dock 10 is raised from a resting position in contact with ground surface 84 (FIGS. 12 and 15) to a mobile position not in contact with ground surface 84.

Wheel assembly 72 includes a hydraulic check valve 86 for automatic locking of wheel assembly 72 into a mobile position when wheel assembly 72 is erected. Wheel assembly 72 also includes a manually-actuated hydraulic release valve 88, actuation of which in the mobile position causes the pushing force to be reduced and wheel assembly 72 to return to the resting position as seen in FIGS. 11, 13-14 and 16.

As seen best in FIGS. 14-16, wheel assembly 72 also includes an elongate weight-bearing support member 90 having a first end 92 attached to ramp underside 70 and a second end 94 attached to tension spring 74 and having a foot 96. Foot 96 contacts ground surface 84 when wheel assembly 72 is in the resting position. When in the resting position, support member 90 bears a portion of the weight of ramp member 12.

Ramp member 12 typically includes two wheel assemblies (two not shown) which are equally distant from a point on the lower edge 16 and located on each side of ramp member 12 to provide stability.

In operation, mobile loading dock 10 is moved from a resting to a mobile position by fork truck 26 so that it directly contacts either a dock or a semi-trailer for loading and unloading of material. In order to facilitate movement of mobile loading dock 10, fork truck 26, which already has the fork-engaging sleeve 28 on its forks 46, drives forward towards the lower end 14 of ramp member 12 until slot-engaging member 24 engages slot 22. Fork truck 26 then slowly raises the forks 46 straight up and engages flange-end portion 34 with arc-shaped member 40 thereby securing the connection between the fork truck 26 and the loading dock 10 without the need for manual operation by user. When loading dock 10 is secured to fork truck 26, fork truck 26 can lift up lower end 14 of ramp member 10 and manipulate movement of ramp member 12 in various directions until ramp member 12 is in the desired position.

Fork truck 26 can turn and maneuver loading dock 10 in 90° in either direction given the opposed sidewalls 52 and the corresponding termination points 56. The plurality of possible angles defines a circular arc around lower edge 16 of ramp member 12, the arc subtending an angle greater than 180° and having a center point defined by slot-engaging member 24. Slot-engaging member 24 moving axially within second portion 38 of slot 22 facilitates positional movement of fork truck 26 between any of a plurality of possible angles relative to mobile loading dock 10 in the mobile position and further facilitates fork-truck-driven movement of mobile loading dock 10 in fork-truck-determined directions measurable on an x-axis on the ground surface and a perpendicular y-axis on the ground surface.

As lower end 14 of loading dock 10 is lifted off of the ground 84 into a mobile position, tension spring 74 automatically articulates wheel assembly 72 into the mobile position. Hydraulic member 76 suctions fluid from a tank and a check valve 86 holds hydraulic member 76 in the fully extended position, allowing loading dock 10 to be moved without any human effort on the hydraulic system (no pumping). Fully automatic latching and articulation of loading dock 10 is achieved. Once loading dock 10 is moved into the desired position, loading or unloading of material can begin.

The operator of the fork truck 26 has the ability to pivot the entire loading dock 10 about the wheel assembly 72. When the weight of loading dock 10 is removed as ramp member 12 is lifted, the tension spring 74 will put a force onto the wheel 80, causing the hydraulic member 76 to be mechanically extended as the wheel assembly 72 rotates from the force or tension spring 74. Check valve 86 allows hydraulic fluid to be suctioned from the bottom of a hydraulic tank into cylinders. When fork truck operator lowers the lower end 14, the wheel 80 is moved by the tension spring 74 into position and is held in place by the hydraulic member 76 (specifically a hydraulic cylinder). A wide variety of materials are available for the various parts discussed and illustrated herein. Although the device has been described in conjunction with specific embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, it is intended to embrace all such alternatives, modifications and variations that fall within the spirit and broad scope of the appended claims. 

1. A mobile loading dock comprising a planar ramp member having: a lower end terminating in a lower edge; an upper end including an upper edge; and a ramp underside having a wheel assembly thereupon, the wheel assembly having (a) a tension spring; (b) a hydraulic member; (c) a leg hingedly attached to the ramp underside; and (d) a wheel attached to the leg at an axle and disposed to contact a ground surface beneath the mobile loading dock.
 2. The mobile loading dock of claim 1 wherein the tension spring exerts a pulling force on the leg and the wheel and the hydraulic member exerts a pushing force on the leg and the wheel.
 3. The mobile loading dock of claim 2 wherein the combined pulling force and pushing force are directionally disposed to erect the wheel assembly when the lower end of the mobile loading dock is raised from a resting position in contact with the ground surface to a mobile position not in contact with the ground surface.
 4. The mobile loading dock of claim 1 wherein the wheel assembly further includes a hydraulic check valve for automatic locking of the wheel assembly into a mobile position when the wheel assembly is erected.
 5. The mobile loading dock of claim 4 wherein the wheel assembly further includes a manually-actuated hydraulic release valve, actuation of which in the mobile position causes the pushing force to be reduced and the wheel assembly to return to the resting position.
 6. The mobile loading dock of claim 5 wherein the wheel assembly further includes an elongate weight-bearing support member having a first end attached to the ramp underside and a second end attached to the tension spring and having a foot, the foot contacts the ground surface when the wheel assembly is in the resting position, whereby the support member bears a portion of the weight of the ramp member.
 7. The mobile loading dock of claim 1 wherein the lower edge includes a slot substantially parallel to the length of the ramp member for engagement with a slot-engaging member whereby the slot-engaging member is connectable to a fork truck fork for positioning of the ramp member.
 8. The mobile loading dock of claim 7 further including a fork-engaging sleeve having a sleeve underside from which the slot-engaging member protrudes downward, the slot-engaging member having a downward-protruding rod portion and a flange-end portion connected thereto.
 9. The mobile loading dock of claim 8 wherein the slot includes a first portion and a second portion, the first portion for guiding the slot-engaging member toward the second portion wherein the slot-engaging member is securable.
 10. The mobile loading dock of claim 9 wherein the second portion includes an arc-shaped member affixed to the ramp underside, the arc-shaped member for receiving the flange-end portion.
 11. The mobile loading dock of claim 10 wherein the flange-end portion includes a tapered-upward-facing surface and the arc-shaped member includes a concave-interior surface for securement of the slot-engaging member, the concave-interior surface being configured for interaction with the tapered-upward-facing surface thereby enabling movement of the ramp member.
 12. The mobile loading dock of claim 1 wherein the ramp member includes (a) a first upper-end planar portion, the plane of which is parallel to a ground surface on which the ramp member rests; and (b) a second planar portion, the plane of which is downwardly-angled from the upper end to the lower edge.
 13. The mobile loading dock of claim 6 wherein the ramp member includes two wheel assemblies, the two wheel assemblies being equally distant from a point on the lower edge.
 14. The mobile loading dock of claim 1 wherein the planar ramp member includes a stationary support member, the stationary support member being hydraulically or pneumatically raised or lowered.
 15. A method of moving a mobile loading dock from a resting position to a mobile position, the method comprising: (a) providing a planar ramp member with a lower end terminating in a lower edge; an upper end including an upper edge; and a ramp underside having a wheel assembly thereupon, the wheel assembly having (i) a tension spring; (ii) a hydraulic member; (iii) a leg hingedly attached to the ramp underside; and (iv) a wheel attached to the leg at an axle and disposed to contact a ground surface beneath the mobile loading dock; (b) connecting a slot-engaging member of a fork truck by engaging a fork with a fork-engaging sleeve; (c) moving the fork truck to effectuate engagement of the slot-engaging member with a slot; and (d) lifting the fork and causing the sleeve and the slot-engaging member to be lifted, thereby raising a lower end of the mobile loading dock from the resting position to the mobile position in which the wheel assembly is erected, the fork, sleeve and slot-engaging member bearing a portion of weight of the mobile loading dock.
 16. The method of claim 15 further including: (a) connecting the slot-engaging member of the fork truck by engaging the fork with the fork-engaging sleeve; (b) moving the fork truck to effectuate engagement of the slot-engaging member with the slot; (c) lifting the fork and causing the sleeve and the slot-engaging member to be lifted, thereby raising the lower end of the mobile loading dock from the resting position to the mobile position in which the wheel assembly is erected, the fork, sleeve and slot-engaging member in combination bearing a portion of weight of the mobile loading dock; (d) driving and steering the fork truck in a forward or a backward direction, thereby causing the wheel of the wheel assembly to roll a forward or a backward distance on the ground surface; and (e) steering the fork truck in a rightward or leftward direction; wherein the slot-engaging member moving axially within the second portion of the slot facilitates positional movement of the fork truck between any of a plurality of possible angles relative to the mobile loading dock in the mobile position and further facilitates fork-truck-driven movement of the mobile loading dock in fork-truck-determined directions measurable on an x-axis on the ground surface and a perpendicular y-axis on the ground surface.
 17. The method of claim 16 wherein the ramp member includes the two wheel assemblies, the two wheel assemblies being erected at the same time when the lower end of the mobile loading dock is raised from the resting position to the mobile position.
 18. The method of claim 16 wherein the plurality of possible angles defines a circular arc around the lower edge of the ramp member, the arc subtending an angle greater than 180° and having a center point defined by the slot-engaging member. 